Inflammation

Question 1

List 6 causes of acute inflammation.

Answer 1

1. Micro-organisms
2. Mechanical
3. Chemical
4. Physical
5. Dead tissue
6. Hypersensitivity

Question 2

What are the benefits of acute inflammation?

Answer 2

1. Rapid response
2. Cardinal signs and loss of function
3. resolution and return to normal

Question 3

What is the function of neutrophils?

Answer 3

Destroy organisms and denature antigens for macrophages.

Question 4

What is the function of neutrophils?

Answer 4

Destroy organisms and denature antigens for macrophages.

Question 5

What is the function of plasma proteins in acute inflammation?

Answer 5

Localise process.

Question 6

Describe the three main steps in the sequence of microvascular change.

Answer 6

1. Change in vessel radius and blood flow
2. Increase permeability of vessel wall.
3. Movement of neutrophils from the vessel to the extracellular compartment.

Question 7

What changes occur with the vessel radius and blood flow during inflammation>

Answer 7

• Transient arteriolar constriction and local arteriolar dilatation.
• relaxation of smooth muscle
• increase blood flow to local tissues

Question 8

What causes endothelial leak?

Answer 8

Released during the localised vascular response when the permeability of the cell wall is increased.

Question 9

What are the effects of endothelial leak?

Answer 9

Net movement of plasma from capillaries to extravascular space (exhudation) causes OEDEMA, PAIN and REDUCES FUNCTION.

Question 10

Describe the main three steps regarding the movement of neutrophils.

Answer 10

1. Margination (move to endothelial aspects of lumen)
2. Pavementing (neutrophils adhere to endothelial aspects)
3. Emigration (neutrophils squeeze between endothelial cells to extravascular tissues)

Question 11

What is exudate composed of?

Answer 11

Protein, plasma, immunoglobulins and fibrinogen.

Question 12

What is the result on blood after fluid loss?

Answer 12

Increased viscosity and slows rate of flow.

Question 13

What are the local effects of acute inflammation?

Answer 13

Redness and heat, swelling, door (pain) and loss of function.

Question 14

List the immediate systemic effects of acute inflammation.

Answer 14

Pyrexia, feel unwell (malaise, anorexia, nausea, abdominal pain and vomiting in children) and neutrophilic (increased WBC)

Question 15

List the longer term systemic side effects of acute inflammation.

Answer 15

Weight loss, lymphadenopathy, anaemia.

Question 16

Describe complications of acute inflammation.

Answer 16

Dissemination i.e septic shock.

Question 17

Describe dissemination.

Answer 17

Inflammation spread to bloodstream (bacteraemia in blood, toxaemia with toxic products in blood or septicaemia with growth in blood). Shock prevents perfusion of tissues, causing vasodilatation.

Question 18

What are the signs of shock.

Answer 18

Increase HR, decrease BP, increase temperature, rash

Question 19

What is the cause of dissemination.

Answer 19

Chemical release mediators from cells to plasma

Question 20

What chemical mediators are released by bacterial endotoxins?

Answer 20

IL-1

Question 21

What is the result of compensation failure?

Answer 21

Septic shock (unable to perfuse tissues)

Question 22

Summarise the cell-surface mediators of acute inflammation?

Answer 22

ICAM-1 and P-selectin

Question 23

Summarise the mediators released from cells.

Answer 23

Histamine, 5-hydroxytryptamine, prostaglandins, leukotrienes, omega-3 polyunsaturated fats, platelet-activating factor, cytokines and chemokine, NO, oxygen free radicals.

Question 24

Name three process of acute inflammation that can be altered to the detriment of patients.

Answer 24

Suppuration (pus formation), Organisation (granulation tissue - fibrous and scar), Dissemination (spread to bloodstream)

Question 25

List the cell types involved in chronic inflammation.

Answer 25

Lymphocytes, plasma cells, macrophages, fibroblasts, NK cells, T cells.

Question 26

What are the major causes of chronic inflammation?§

Answer 26

1. From acute inflammation

2. Arising as a primary lesion

Question 27

Describe the effects of chronic inflammation.

Answer 27

Long term, tissue or organ damage, no specific “for bit”, malaise and weight loss, loss of function.

Question 28

Describe organisation.

Answer 28

Granulation tissue, healing and repair, fibrosis and scar.

Question 29

What is the function of fibroblasts?

Answer 29

Produce collagens to form matrix and replace exudate to form a scar.

Question 30

Describe adverse effects of tissue scarring.

Answer 30

Structural and functional deterioration.
E.g peptic ulcer, cholecystitis, osteomyelitis, pain or numbness, hair follicles don’t grow back, loss of muscle power (after MI).

Question 31

List factors involved in promoting healing and repair.

Answer 31

• cleanliness
• apposition of edges
• sound nutrition
• metabolic stability
• normal inflammatory and coagulation mechanisms.

Question 32

Describe the role of angiogenesis in healing and repair.

Answer 32

New vessels form (capillary beds), VEGF released by hypoxic cells stimulates proliferation, enzyme secretion aids progression, enabled blood supply to enter damaged tissue.

Question 33

Describe instances where angiogenesis occur.

Answer 33

1. In thrombosis to reinstate flow
2. In malignant tumours as tumour grows
3. In atherosclerosis for fibrosis and scarring

Question 34

Name factors that impair healing.

Answer 34

Dirty, gaping wound, large haematome, poorly nourished, abnormal CHO metabolism, diabetes, corticosteroid therapy, inhibition of angiogenesis.

Question 35

What is the role of histamine?

Answer 35

Relaxes vascular smooth muscle in acute inflammation.

Question 36

what does hypoxia impede?

Answer 36

Wound healing.

Question 37

What cells are a major component of the acute inflammatory response?

Answer 37

Neutrophil polymorphs.

Question 38

What hypersensitivity reaction requires immune complex formation?

Answer 38

Type III.

Question 39

What hypersensitivity reaction requires local IgG or IgM production?

Answer 39

Type II.

Question 40

What hypersensitivity reaction is the basis of allergy and requires inappropriate IgE synthesis?

Answer 40

Type I

Question 41

What hypersensitivity reaction is not antibody mediated?

Answer 41

Type IV

Question 42

What hypersensitivity reaction is mediated by the inappropriate action of Th1 cells and cytokine products?

Answer 42

Type IV

Question 43

What cells are responsible for the inappropriate synthesis of IgE in type I hypersensitivity reactions?

Answer 43

Mast cells.

Question 44

What hypersensitivity reaction causes complement activation?

Answer 44

Type II

Question 45

What hypersensitivity reaction is caused by the abnormal deposition of fomed Ag-Ab complexes?

Answer 45

Type III

Question 46

What hypersensitivity reaction results in Antibody dependent cellular cytotoxicity (ADCC)?

Answer 46

Type II

Question 47

Give two examples of type III hypersensitivity reactions.

Answer 47

Serum sickness (systemic) or Arthus (local)

Question 48

What reaction involves the binding of hapten and a carrier host protein to produce antigenic stimuli?

Answer 48

Type IV.

Question 49

what hypersensitivity reaction has a 48-72 hour delay?

Answer 49

Type IV.

Question 50

Describe the pathophysiology of early phase allergic reactions.

Answer 50

Occurs in minutes and involves preformed mast cell mediators.

Question 51

Describe the pathophysiology of late phase allergic reactions.

Answer 51

Occurs in hours and involves newly synthesised mediators e.g Th2 cytokines and eosinophil mediators.

Question 52

Define atopy.

Answer 52

A genetic tendency to produce IgE to normally innocuous, common environmental allergens.

Question 53

Define allergy.

Answer 53

Clinical expression of atopic tendency with inappropriate production of IgE.

Question 54

What is used in type IV hypersensitivity to direct immune response?

Answer 54

Haptens

Question 55

What is the purpose of carrier proteins in type IV hypersensitivity reactions?

Answer 55

Produce sufficient antigenic bulk.

Question 56

Define the two mechanisms of immunological tolerance.

Answer 56

1. Central tolerance (deletion of auto reactive b and T cells during maturation)
2. Peripheral tolerance ( inhibit activity of autoreactive cells which escape central tolerance processes)

Question 57

What results in the breakdown of tolerance?

Answer 57

Autoimmune disease.

Question 58

Define autoimmune disease.

Answer 58

Large group of clinical disorders which are characterised by tissue or organ damage mediated through aberrant immunological mechanisms which are directed against autoantigens.

Question 59

What 5 factors are involved in the aetiology of autoimmune disease.

Answer 59

1. Genetic factors (e.g inheritance of particular HLA genes)
2. Immune regulatory factors
3. Hormonal factors
4. Environmental factors
5. ‘Other’ factors

Question 60

What are the pathogenetic mechanisms involved in autoimmune disease?

Answer 60

• Genetic Background & environmental factors (e.g infection)
• Effector mechanisms = cellular or antibody mediated, autoAb activation of complement-mediated inflammation, immune complex formation, recruitment of innate immune components.

Question 61

Can organ specific and non-organ specific autoimmune diseases overlap in one patient?

Answer 61

No. Overlap of different ends rarely found however, overlap of disorders found at same side of spectrum can be found e.g thyroid and gastric organ specific disorders in one patient.

Question 62

What imaging techniques are used in inflammatory disorders?

Answer 62

PET, CT, SPECT

Question 63

Outline the scientific basis of a PET scan.

Answer 63

Use nucleotides that decay by positron emission (proton to neutron + positron)

Question 64

What is the main isotope used for PET?

Answer 64

18F with a half-life of 110mins.

Question 65

State the properties of an ideal isotope for labelling.

Answer 65

• Half-life similar to length of examination.
• Radionuclides should be readily available at hospital.
• Easily bound to pharmaceutical component.
• Radiopharmaceutical should be easy to repair.

Question 66

What type of radiation is used in PET scanning.

Answer 66

Gamma emitter.

Question 67

Explain detection of gamma radiation and production if digital image by digital camera, PET, SPECT.

Answer 67

Occurs due to radioactive decay of unstable isotopes.

Question 68

Put these steps in order. Light electromagnetic energy, electrical energy, nuclear energy and gamma electromagnetic energy.

Answer 68

1. Nuclear Energy
2. Gamma electromagnetic energy
3. Light electromagnetic energy
4. Electrical energy.

Question 69

What is the function of the gamma camera?

Answer 69

Rotates around the patient for 25 minutes and detects gamma radiation being admitted.

Question 70

What is SPECT?

Answer 70

Single Photon Emission Computed Tomography (Ct version of nuclear medicine).

Question 71

List typical effective doses.

Answer 71

4mSV = bone scan, 10mSV = CT abdomen/ pelvis), 18mSV = myocardial perfusion

Question 72

What is the UK average for natural background radiation.

Answer 72

2.2mSV/year.

Question 73

Explain the role of diagnostic imaging in the diagnosis, monitoring and treatment of inflammatory/infectious conditions.

Answer 73

• Need to know normal distribution of tracers to determine abnormal distribution.
• Identifies tissue type
• Show anatomical changes therefore, late/chronic stages.
• Detect biological and biochemical changes in earliest phase of disease (increase specificity and diagnostic accuracy)

Question 74

What does a high neutrophil count indicate?

Answer 74

Acute inflammation.

Question 75

What does a high amylase suggest?

Answer 75

Pancreatitis (caused by alcohol, gall stones or idiopathic).

Question 76

Is acute inflammation specific?

Answer 76

No.

Question 77

What hypersensitivity reaction is interleukin-4 associated with?

Answer 77

Type II

Question 78

What are type IV hypersensitivity reactions also known as?

Answer 78

Delayed-type hypersensitivity.

Question 79

What hypersensitivity reaction is associated with the production of gamma-interferon?

Answer 79

Type IV (delayed type)

Question 80

What does rubber mean?

Answer 80

Redness

Question 81

What does dollar mean?

Answer 81

Pain